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Mobility Support in Private Networks Using RPX

Rattananon, S.; Landfeldt, Björn LU and Seneviratne, A. (2005) The IEEE Conference on Local Computer Networks, 2005. 30th Anniversary. In [Host publication title missing] p.729-739
Abstract
The limited IPv4 address space has driven the cellular industry to start using IPv6 addresses for mobile users in 3G-networks. However, there is a potential threat to the success of 3G-network deployment, as the success will depend on the services offering to the end users. Currently, the overwhelming proportion of services resides in the IPv4 address space, which makes them inaccessible to users in the IPv6 address space. Thus, users cannot directly communicate with and access services without an intermediate translation mechanism. Previous studies on network address translation methods have shown that REBEKAH-IP with Port Extension, RPX is promising in that it provides excellent theoretical maximum scalability while supporting all types... (More)
The limited IPv4 address space has driven the cellular industry to start using IPv6 addresses for mobile users in 3G-networks. However, there is a potential threat to the success of 3G-network deployment, as the success will depend on the services offering to the end users. Currently, the overwhelming proportion of services resides in the IPv4 address space, which makes them inaccessible to users in the IPv6 address space. Thus, users cannot directly communicate with and access services without an intermediate translation mechanism. Previous studies on network address translation methods have shown that REBEKAH-IP with Port Extension, RPX is promising in that it provides excellent theoretical maximum scalability while supporting all types of services without limitations for the users in the network. However, the initial RPX proposal does not support host mobility to different networks, despite the fact that mobility is the most important feature of a wireless communication system. In this paper, we propose to extend the RPX scheme with a mobility support scheme based on mobile IP. RPX allows more than one host to use a single IPv4 address and therefore we have augmented Mobile IP with a new tunneling mechanism called IP-in-FQDN tunneling. The mechanism allows for unique mapping despite the sharing of IP addresses while maintaining the scalability of RPX. In addition, we present simulation results that indicate that the proposed scheme performs well in terms of scalability, connection request delay and packet transmission delay compared to mobile IP. (Less)
Please use this url to cite or link to this publication:
author
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
in
[Host publication title missing]
pages
729 - 739
conference name
The IEEE Conference on Local Computer Networks, 2005. 30th Anniversary.
external identifiers
  • Scopus:33751429972
ISBN
0-7695-2421-4
DOI
10.1109/LCN.2005.90
language
English
LU publication?
no
id
53169dda-f402-4599-a87a-7c45eba97f66 (old id 3193910)
date added to LUP
2012-11-23 13:54:08
date last changed
2017-01-01 08:17:06
@inproceedings{53169dda-f402-4599-a87a-7c45eba97f66,
  abstract     = {The limited IPv4 address space has driven the cellular industry to start using IPv6 addresses for mobile users in 3G-networks. However, there is a potential threat to the success of 3G-network deployment, as the success will depend on the services offering to the end users. Currently, the overwhelming proportion of services resides in the IPv4 address space, which makes them inaccessible to users in the IPv6 address space. Thus, users cannot directly communicate with and access services without an intermediate translation mechanism. Previous studies on network address translation methods have shown that REBEKAH-IP with Port Extension, RPX is promising in that it provides excellent theoretical maximum scalability while supporting all types of services without limitations for the users in the network. However, the initial RPX proposal does not support host mobility to different networks, despite the fact that mobility is the most important feature of a wireless communication system. In this paper, we propose to extend the RPX scheme with a mobility support scheme based on mobile IP. RPX allows more than one host to use a single IPv4 address and therefore we have augmented Mobile IP with a new tunneling mechanism called IP-in-FQDN tunneling. The mechanism allows for unique mapping despite the sharing of IP addresses while maintaining the scalability of RPX. In addition, we present simulation results that indicate that the proposed scheme performs well in terms of scalability, connection request delay and packet transmission delay compared to mobile IP.},
  author       = {Rattananon, S. and Landfeldt, Björn and Seneviratne, A.},
  booktitle    = {[Host publication title missing]},
  isbn         = {0-7695-2421-4},
  language     = {eng},
  pages        = {729--739},
  title        = {Mobility Support in Private Networks Using RPX},
  url          = {http://dx.doi.org/10.1109/LCN.2005.90},
  year         = {2005},
}